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Coordinated control of three- and single-phase inverters coexisting in low-voltage microgrids

Author

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  • Brandao, Danilo I.
  • de Araújo, Lucas S.
  • Caldognetto, Tommaso
  • Pomilio, José A.

Abstract

This paper proposes the third generation of the Power-Based Control, that is, an approach to effectively coordinate the operation of single- and three-phase inverter-interfaced distributed energy resources that can be arbitrarily connected among the phases of three-phase four-wire low-voltage microgrids. The aim of the approach is to precisely regulate the power exchanged with the main grid by fairly exploiting the available distributed resources while respecting their own local constraints. This allows to achieve demand-response, unbalance compensation, and improved voltage profiles, which is valuable for limiting stress conditions to the distribution infrastructure. The technique is based on a master/slave microgrid architecture where the distributed inverters act as slave units driven by a centralized master controller. This latter employs the Power-Based Control in order to steer the contribution of the inverters on the basis of the microgrid power status. In particular, active, reactive, and unbalance power terms are processed by the master controller and the corresponding microgrid's power needs shared among the distributed energy resources, to achieve the compensation target at the point-of-common-coupling with the main grid. The strategy proposed herein drives the three-phase inverters to operate balanced, which avoids unwanted voltage fluctuations at the DC-side of the inverters; instead, single-phase inverters, which can be connected arbitrarily among the phases of the distribution grid, are exploited to compensate any residual unbalances (i.e., negative- and zero-components). The control technique is analyzed and demonstrated by computer simulations considering a real urban meshed distribution network. Steady-state and dynamic results and performances are reported and discussed considering typical demand and generation profiles.

Suggested Citation

  • Brandao, Danilo I. & de Araújo, Lucas S. & Caldognetto, Tommaso & Pomilio, José A., 2018. "Coordinated control of three- and single-phase inverters coexisting in low-voltage microgrids," Applied Energy, Elsevier, vol. 228(C), pages 2050-2060.
    • Handle: RePEc:eee:appene:v:228:y:2018:i:c:p:2050-2060
    DOI: 10.1016/j.apenergy.2018.07.082
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    References listed on IDEAS

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    3. Silveira, Jose Ronaldo & Brandao, Danilo Iglesias & Fernandes, Nicolas T.D. & Uturbey, Wadaed & Cardoso, Braz, 2021. "Multifunctional dispatchable microgrids," Applied Energy, Elsevier, vol. 282(PA).
    4. Guido Cavraro & Tommaso Caldognetto & Ruggero Carli & Paolo Tenti, 2019. "A Master/Slave Approach to Power Flow and Overvoltage Control in Low-Voltage Microgrids," Energies, MDPI, vol. 12(14), pages 1-22, July.
    5. Fermín Barrero-González & María Isabel Milanés-Montero & Eva González-Romera & Enrique Romero-Cadaval & Carlos Roncero-Clemente, 2019. "Control Strategy for Electric Vehicle Charging Station Power Converters with Active Functions," Energies, MDPI, vol. 12(20), pages 1-18, October.
    6. Ferreira, Willian M. & Meneghini, Ivan R. & Brandao, Danilo I. & Guimarães, Frederico G., 2020. "Preference cone based multi-objective evolutionary algorithm applied to optimal management of distributed energy resources in microgrids," Applied Energy, Elsevier, vol. 274(C).
    7. Wang, Y. & Rousis, A. Oulis & Strbac, G., 2022. "Resilience-driven optimal sizing and pre-positioning of mobile energy storage systems in decentralized networked microgrids," Applied Energy, Elsevier, vol. 305(C).

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